/* * Copyright 2006 Sun Microsystems, Inc. All rights reserved. * Use is subject to license terms. */ /* Copyright (c) 1983, 1984, 1985, 1986, 1987, 1988, 1989 AT&T */ /* All Rights Reserved */ /* * Copyright (c) 1980 Regents of the University of California. * All rights reserved. The Berkeley Software License Agreement * specifies the terms and conditions for redistribution. */ #include "sh.h" #include "sh.dir.h" #include "sh.proc.h" #include "wait.h" #include "sh.tconst.h" /* * C Shell - functions that manage processes, handling hanging, termination */ bool neednote; bool pjobs; static struct process *pprevious; static short pmaxindex; static struct process proclist; static struct process *pcurrent; struct process *pcurrjob; static struct process *pholdjob; #define BIGINDEX 9 /* largest desirable job index */ void pjwait(struct process *); void pflush(struct process *); void pclrcurr(struct process *); void padd(struct command *); void pads(tchar *); void ptprint(struct process *); void pkill(tchar **, int); void pstart(struct process *, int); void okpcntl(void); struct process *pgetcurr(struct process *); struct process *pfind(tchar *); /* * pchild - called at interrupt level by the SIGCHLD signal * indicating that at least one child has terminated or stopped * thus at least one wait system call will definitely return a * childs status. Top level routines (like pwait) must be sure * to mask interrupts when playing with the proclist data structures! */ void pchild(void) { struct process *pp; struct process *fp; int pid; union wait w; int jobflags; struct rusage ru; #ifdef TRACE tprintf("TRACE- pchile()\n"); #endif loop: pid = csh_wait3(&w, (setintr ? WNOHANG|WUNTRACED:WNOHANG), &ru); /* * SysV sends a SIGCHLD when the child process * receives a SIGCONT, and result of that action is ignored here */ if (w.w_status == WCONTFLG) return; if (pid <= 0) { if (errno == EINTR) { errno = 0; goto loop; } return; } for (pp = proclist.p_next; pp != PNULL; pp = pp->p_next) if (pid == pp->p_pid) goto found; goto loop; found: if (pid == atoi_(value(S_child /* "child" */))) unsetv(S_child /* "child" */); pp->p_flags &= ~(PRUNNING|PSTOPPED|PREPORTED); if (WIFSTOPPED(w)) { pp->p_flags |= PSTOPPED; pp->p_reason = w.w_stopsig; } else { if (pp->p_flags & (PTIME|PPTIME) || adrof(S_time /* "time" */)) (void) gettimeofday(&pp->p_etime, (struct timezone *)0); pp->p_rusage = ru; if (WIFSIGNALED(w)) { if (w.w_termsig == SIGINT) pp->p_flags |= PINTERRUPTED; else pp->p_flags |= PSIGNALED; if (w.w_coredump) pp->p_flags |= PDUMPED; pp->p_reason = w.w_termsig; } else { pp->p_reason = w.w_retcode; if (pp->p_reason != 0) pp->p_flags |= PAEXITED; else pp->p_flags |= PNEXITED; } } jobflags = 0; fp = pp; do { if ((fp->p_flags & (PPTIME|PRUNNING|PSTOPPED)) == 0 && !child && adrof(S_time /* "time" */) && fp->p_rusage.ru_utime.tv_sec+fp->p_rusage.ru_stime.tv_sec >= atoi_(value(S_time /* "time" */))) fp->p_flags |= PTIME; jobflags |= fp->p_flags; } while ((fp = fp->p_friends) != pp); pp->p_flags &= ~PFOREGND; if (pp == pp->p_friends && (pp->p_flags & PPTIME)) { pp->p_flags &= ~PPTIME; pp->p_flags |= PTIME; } if ((jobflags & (PRUNNING|PREPORTED)) == 0) { fp = pp; do { if (fp->p_flags&PSTOPPED) fp->p_flags |= PREPORTED; } while ((fp = fp->p_friends) != pp); while (fp->p_pid != fp->p_jobid) fp = fp->p_friends; if (jobflags&PSTOPPED) { if (pcurrent && pcurrent != fp) pprevious = pcurrent; pcurrent = fp; } else pclrcurr(fp); if (jobflags&PFOREGND) { if (jobflags & (PSIGNALED|PSTOPPED|PPTIME) || #ifdef IIASA jobflags & PAEXITED || #endif !eq(dcwd->di_name, fp->p_cwd->di_name)) { ; /* print in pjwait */ } } else { if (jobflags&PNOTIFY || adrof(S_notify /* "notify" */)) { write_string("\015\n"); flush(); (void) pprint(pp, NUMBER|NAME|REASON); if ((jobflags&PSTOPPED) == 0) pflush(pp); } else { fp->p_flags |= PNEEDNOTE; neednote++; } } } goto loop; } void pnote(void) { struct process *pp; int flags, omask; #ifdef TRACE tprintf("TRACE- pnote()\n"); #endif neednote = 0; for (pp = proclist.p_next; pp != PNULL; pp = pp->p_next) { if (pp->p_flags & PNEEDNOTE) { omask = sigblock(sigmask(SIGCHLD)); pp->p_flags &= ~PNEEDNOTE; flags = pprint(pp, NUMBER|NAME|REASON); if ((flags&(PRUNNING|PSTOPPED)) == 0) pflush(pp); (void) sigsetmask(omask); } } } /* * pwait - wait for current job to terminate, maintaining integrity * of current and previous job indicators. */ void pwait(void) { struct process *fp, *pp; int omask; #ifdef TRACE tprintf("TRACE- pwait()\n"); #endif /* * Here's where dead procs get flushed. */ omask = sigblock(sigmask(SIGCHLD)); for (pp = (fp = &proclist)->p_next; pp != PNULL; pp = (fp = pp)->p_next) if (pp->p_pid == 0) { fp->p_next = pp->p_next; xfree(pp->p_command); if (pp->p_cwd && --pp->p_cwd->di_count == 0) if (pp->p_cwd->di_next == 0) dfree(pp->p_cwd); xfree((tchar *)pp); pp = fp; } (void) sigsetmask(omask); pjwait(pcurrjob); } /* * pjwait - wait for a job to finish or become stopped * It is assumed to be in the foreground state (PFOREGND) */ void pjwait(struct process *pp) { struct process *fp; int jobflags, reason, omask; #ifdef TRACE tprintf("TRACE- pjwait()\n"); #endif while (pp->p_pid != pp->p_jobid) pp = pp->p_friends; fp = pp; do { if ((fp->p_flags&(PFOREGND|PRUNNING)) == PRUNNING) printf("BUG: waiting for background job!\n"); } while ((fp = fp->p_friends) != pp); /* * Now keep pausing as long as we are not interrupted (SIGINT), * and the target process, or any of its friends, are running */ fp = pp; omask = sigblock(sigmask(SIGCHLD)); for (;;) { jobflags = 0; do jobflags |= fp->p_flags; while ((fp = (fp->p_friends)) != pp); if ((jobflags & PRUNNING) == 0) break; /* * At this point, csh used to call: * sigpause(sigblock(0) &~ sigmask(SIGCHLD)); * expecting to receive a SIGCHLD signal from the * termination of the child and to invoke the * signal handler, pchild(), as a result. * * However, vfork() now causes a vfork()'d child to * have all of its active signal handlers reset to * SIG_DFL, to forstall parent memory corruption due * to race conditions with signal handling. * * If this instance of csh is itself a child of vfork(), * which can happen when the top-level csh performs a * command substitution inside an i/o redirection, like: * /bin/echo foo >`/bin/echo trash` * then we will never receive SIGCHLD. To accommodate * this, we wait until one of our children terminates * (without actually reaping the child) and call the * SIGCHLD signal handler (pchild()) directly. */ if (csh_wait_noreap() > 0) pchild(); /* simulate receipt of SIGCHLD */ } (void) sigsetmask(omask); if (tpgrp > 0) /* get tty back */ (void) ioctl(FSHTTY, TIOCSPGRP, (char *)&tpgrp); if ((jobflags&(PSIGNALED|PSTOPPED|PTIME)) || !eq(dcwd->di_name, fp->p_cwd->di_name)) { if (jobflags&PSTOPPED) printf("\n"); (void) pprint(pp, AREASON|SHELLDIR); } if ((jobflags&(PINTERRUPTED|PSTOPPED)) && setintr && (!gointr || !eq(gointr, S_MINUS /* "-" */))) { if ((jobflags & PSTOPPED) == 0) pflush(pp); pintr1(0); /*NOTREACHED*/ } reason = 0; fp = pp; do { if (fp->p_reason) reason = fp->p_flags & (PSIGNALED|PINTERRUPTED) ? fp->p_reason | ABN_TERM : fp->p_reason; } while ((fp = fp->p_friends) != pp); set(S_status /* "status" */, putn(reason)); if (reason && exiterr) exitstat(); pflush(pp); } /* * dowait - wait for all processes to finish */ void dowait(void) { struct process *pp; int omask; #ifdef TRACE tprintf("TRACE- dowait()\n"); #endif pjobs++; omask = sigblock(sigmask(SIGCHLD)); loop: for (pp = proclist.p_next; pp; pp = pp->p_next) if (pp->p_pid && /* pp->p_pid == pp->p_jobid && */ pp->p_flags&PRUNNING) { sigpause(0); goto loop; } (void) sigsetmask(omask); pjobs = 0; } /* * pflushall - flush all jobs from list (e.g. at fork()) */ void pflushall(void) { struct process *pp; #ifdef TRACE tprintf("TRACE- pflush()\n"); #endif for (pp = proclist.p_next; pp != PNULL; pp = pp->p_next) if (pp->p_pid) pflush(pp); } /* * pflush - flag all process structures in the same job as the * the argument process for deletion. The actual free of the * space is not done here since pflush is called at interrupt level. */ void pflush(struct process *pp) { struct process *np; int index; #ifdef TRACE tprintf("TRACE- pflush()\n"); #endif if (pp->p_pid == 0) { printf("BUG: process flushed twice"); return; } while (pp->p_pid != pp->p_jobid) pp = pp->p_friends; pclrcurr(pp); if (pp == pcurrjob) pcurrjob = 0; index = pp->p_index; np = pp; do { np->p_index = np->p_pid = 0; np->p_flags &= ~PNEEDNOTE; } while ((np = np->p_friends) != pp); if (index == pmaxindex) { for (np = proclist.p_next, index = 0; np; np = np->p_next) if (np->p_index > (tchar)index) index = np->p_index; pmaxindex = index; } } /* * pclrcurr - make sure the given job is not the current or previous job; * pp MUST be the job leader */ void pclrcurr(struct process *pp) { #ifdef TRACE tprintf("TRACE- pclrcurr()\n"); #endif if (pp == pcurrent) if (pprevious != PNULL) { pcurrent = pprevious; pprevious = pgetcurr(pp); } else { pcurrent = pgetcurr(pp); pprevious = pgetcurr(pp); } else if (pp == pprevious) pprevious = pgetcurr(pp); } /* +4 here is 1 for '\0', 1 ea for << >& >> */ tchar command[PMAXLEN+4]; int cmdlen; tchar *cmdp; /* * palloc - allocate a process structure and fill it up. * an important assumption is made that the process is running. */ void palloc(int pid, struct command *t) { struct process *pp; int i; #ifdef TRACE tprintf("TRACE- palloc()\n"); #endif pp = (struct process *)xcalloc(1, sizeof (struct process)); pp->p_pid = pid; pp->p_flags = t->t_dflg & FAND ? PRUNNING : PRUNNING|PFOREGND; if (t->t_dflg & FTIME) pp->p_flags |= PPTIME; cmdp = command; cmdlen = 0; padd(t); *cmdp++ = 0; if (t->t_dflg & FPOU) { pp->p_flags |= PPOU; if (t->t_dflg & FDIAG) pp->p_flags |= PDIAG; } pp->p_command = savestr(command); if (pcurrjob) { struct process *fp; /* careful here with interrupt level */ pp->p_cwd = 0; pp->p_index = pcurrjob->p_index; pp->p_friends = pcurrjob; pp->p_jobid = pcurrjob->p_pid; for (fp = pcurrjob; fp->p_friends != pcurrjob; fp = fp->p_friends) ; fp->p_friends = pp; } else { pcurrjob = pp; pp->p_jobid = pid; pp->p_friends = pp; pp->p_cwd = dcwd; dcwd->di_count++; if (pmaxindex < BIGINDEX) pp->p_index = ++pmaxindex; else { struct process *np; for (i = 1; ; i++) { for (np = proclist.p_next; np; np = np->p_next) if (np->p_index == i) goto tryagain; pp->p_index = i; if (i > pmaxindex) pmaxindex = i; break; tryagain:; } } pprevious = pcurrent; pcurrent = pp; } pp->p_next = proclist.p_next; proclist.p_next = pp; (void) gettimeofday(&pp->p_btime, (struct timezone *)0); } void padd(struct command *t) { tchar **argp; #ifdef TRACE tprintf("TRACE- padd()\n"); #endif if (t == 0) return; switch (t->t_dtyp) { case TPAR: pads(S_LBRASP /* "( " */); padd(t->t_dspr); pads(S_SPRBRA /* " )" */); break; case TCOM: for (argp = t->t_dcom; *argp; argp++) { pads(*argp); if (argp[1]) pads(S_SP /* " " */); } break; case TOR: case TAND: case TFIL: case TLST: padd(t->t_dcar); switch (t->t_dtyp) { case TOR: pads(S_SPBARBARSP /* " || " */); break; case TAND: pads(S_SPANDANDSP /* " && " */); break; case TFIL: pads(S_SPBARSP /* " | " */); break; case TLST: pads(S_SEMICOLONSP /* "; " */); break; } padd(t->t_dcdr); return; } if ((t->t_dflg & FPIN) == 0 && t->t_dlef) { pads((t->t_dflg & FHERE) ? S_SPLESLESSP /* " << " */ : S_SPLESSP /* " < " */); pads(t->t_dlef); } if ((t->t_dflg & FPOU) == 0 && t->t_drit) { pads((t->t_dflg & FCAT) ? S_SPGTRGTRSP /* " >>" */ : S_SPGTR /* " >" */); if (t->t_dflg & FDIAG) pads(S_AND /* "&" */); pads(S_SP /* " " */); pads(t->t_drit); } } void pads(tchar *cp) { int i = strlen_(cp); #ifdef TRACE tprintf("TRACE- pads()\n"); #endif if (cmdlen >= PMAXLEN) return; if (cmdlen + i >= PMAXLEN) { (void) strcpy_(cmdp, S_SPPPP /* " ..." */); cmdlen = PMAXLEN; cmdp += 4; return; } (void) strcpy_(cmdp, cp); cmdp += i; cmdlen += i; } /* * psavejob - temporarily save the current job on a one level stack * so another job can be created. Used for { } in exp6 * and `` in globbing. */ void psavejob(void) { #ifdef TRACE tprintf("TRACE- psavejob()\n"); #endif pholdjob = pcurrjob; pcurrjob = PNULL; } /* * prestjob - opposite of psavejob. This may be missed if we are interrupted * somewhere, but pendjob cleans up anyway. */ void prestjob(void) { #ifdef TRACE tprintf("TRACE- prestjob()\n"); #endif pcurrjob = pholdjob; pholdjob = PNULL; } /* * pendjob - indicate that a job (set of commands) has been completed * or is about to begin. */ void pendjob(void) { struct process *pp, *tp; #ifdef TRACE tprintf("TRACE- pendjob()\n"); #endif if (pcurrjob && (pcurrjob->p_flags&(PFOREGND|PSTOPPED)) == 0) { pp = pcurrjob; while (pp->p_pid != pp->p_jobid) pp = pp->p_friends; printf("[%d]", pp->p_index); tp = pp; do { printf(" %d", pp->p_pid); pp = pp->p_friends; } while (pp != tp); printf("\n"); } pholdjob = pcurrjob = 0; } /* * pprint - print a job */ int pprint(struct process *pp, int flag) { int status, reason; struct process *tp; extern char *linp, linbuf[]; int jobflags, pstatus; char *format; #ifdef TRACE tprintf("TRACE- pprint()\n"); #endif while (pp->p_pid != pp->p_jobid) pp = pp->p_friends; if (pp == pp->p_friends && (pp->p_flags & PPTIME)) { pp->p_flags &= ~PPTIME; pp->p_flags |= PTIME; } tp = pp; status = reason = -1; jobflags = 0; do { jobflags |= pp->p_flags; pstatus = pp->p_flags & PALLSTATES; if (tp != pp && linp != linbuf && !(flag&FANCY) && (pstatus == status && pp->p_reason == reason || !(flag&REASON))) printf(" "); else { if (tp != pp && linp != linbuf) printf("\n"); if (flag&NUMBER) if (pp == tp) printf("[%d]%s %c ", pp->p_index, pp->p_index < 10 ? " " : "", pp == pcurrent ? '+' : (pp == pprevious ? (tchar) '-' : (tchar) ' ')); else printf(" "); if (flag&FANCY) printf("%5d ", pp->p_pid); if (flag&(REASON|AREASON)) { if (flag&NAME) format = "%-21s"; else format = "%s"; if (pstatus == status) if (pp->p_reason == reason) { printf(format, ""); goto prcomd; } else reason = pp->p_reason; else { status = pstatus; reason = pp->p_reason; } switch (status) { case PRUNNING: printf(format, "Running "); break; case PINTERRUPTED: case PSTOPPED: case PSIGNALED: if ((flag&(REASON|AREASON)) && reason != SIGINT && reason != SIGPIPE) printf(format, strsignal(pp->p_reason)); break; case PNEXITED: case PAEXITED: if (flag & REASON) if (pp->p_reason) printf("Exit %-16d", pp->p_reason); else printf(format, "Done"); break; default: printf("BUG: status=%-9o", status); } } } prcomd: if (flag&NAME) { printf("%t", pp->p_command); if (pp->p_flags & PPOU) printf(" |"); if (pp->p_flags & PDIAG) printf("&"); } if (flag&(REASON|AREASON) && pp->p_flags&PDUMPED) printf(" (core dumped)"); if (tp == pp->p_friends) { if (flag&ERSAND) printf(" &"); if (flag&JOBDIR && !eq(tp->p_cwd->di_name, dcwd->di_name)) { printf(" (wd: "); dtildepr(value(S_home /* "home" */), tp->p_cwd->di_name); printf(")"); } } if (pp->p_flags&PPTIME && !(status&(PSTOPPED|PRUNNING))) { if (linp != linbuf) printf("\n\t"); { static struct rusage zru; prusage(&zru, &pp->p_rusage, &pp->p_etime, &pp->p_btime); } } if (tp == pp->p_friends) { if (linp != linbuf) printf("\n"); if (flag&SHELLDIR && !eq(tp->p_cwd->di_name, dcwd->di_name)) { printf("(wd now: "); dtildepr(value(S_home /* "home" */), dcwd->di_name); printf(")\n"); } } } while ((pp = pp->p_friends) != tp); if (jobflags&PTIME && (jobflags&(PSTOPPED|PRUNNING)) == 0) { if (jobflags & NUMBER) printf(" "); ptprint(tp); } return (jobflags); } void ptprint(struct process *tp) { struct timeval tetime, diff; static struct timeval ztime; struct rusage ru; static struct rusage zru; struct process *pp = tp; #ifdef TRACE tprintf("TRACE- ptprint()\n"); #endif ru = zru; tetime = ztime; do { ruadd(&ru, &pp->p_rusage); tvsub(&diff, &pp->p_etime, &pp->p_btime); if (timercmp(&diff, &tetime, >)) tetime = diff; } while ((pp = pp->p_friends) != tp); prusage(&zru, &ru, &tetime, &ztime); } /* * dojobs - print all jobs */ void dojobs(tchar **v) { struct process *pp; int flag = NUMBER|NAME|REASON; int i; #ifdef TRACE tprintf("TRACE- dojobs()\n"); #endif if (chkstop) chkstop = 2; if (*++v) { if (v[1] || !eq(*v, S_DASHl /* "-l" */)) error("Usage: jobs [ -l ]"); flag |= FANCY|JOBDIR; } for (i = 1; i <= pmaxindex; i++) for (pp = proclist.p_next; pp; pp = pp->p_next) if (pp->p_index == i && pp->p_pid == pp->p_jobid) { pp->p_flags &= ~PNEEDNOTE; if (!(pprint(pp, flag) & (PRUNNING|PSTOPPED))) pflush(pp); break; } } /* * dofg - builtin - put the job into the foreground */ void dofg(tchar **v) { struct process *pp; #ifdef TRACE tprintf("TRACE- dofg()\n"); #endif okpcntl(); ++v; do { pp = pfind(*v); pstart(pp, 1); pjwait(pp); } while (*v && *++v); } /* * %... - builtin - put the job into the foreground */ void dofg1(tchar **v) { struct process *pp; #ifdef TRACE tprintf("TRACE- untty()\n"); #endif okpcntl(); pp = pfind(v[0]); pstart(pp, 1); pjwait(pp); } /* * dobg - builtin - put the job into the background */ void dobg(tchar **v) { struct process *pp; #ifdef TRACE tprintf("TRACE- dobg()\n"); #endif okpcntl(); ++v; do { pp = pfind(*v); pstart(pp, 0); } while (*v && *++v); } /* * %... & - builtin - put the job into the background */ void dobg1(tchar **v) { struct process *pp; #ifdef TRACE tprintf("TRACE- dobg1()\n"); #endif pp = pfind(v[0]); pstart(pp, 0); } /* * dostop - builtin - stop the job */ void dostop(tchar **v) { #ifdef TRACE tprintf("TRACE- dostop()\n"); #endif pkill(++v, SIGSTOP); } /* * dokill - builtin - superset of kill (1) */ void dokill(tchar **v) { int signum; tchar *name; #ifdef TRACE tprintf("TRACE- dokill()\n"); #endif v++; if (v[0] && v[0][0] == '-') { if (v[0][1] == 'l') { for (signum = 1; signum <= NSIG-1; signum++) { char sbuf[BUFSIZ]; if (sig2str(signum, sbuf) == 0) printf("%s ", sbuf); if (signum % 8 == 0) Putchar('\n'); } Putchar('\n'); return; } if (digit(v[0][1])) { if (chkalldigit_(v[0]+1) != 0) { setname(v[0]+1); bferr("Unknown signal; kill -l lists signals"); } signum = atoi_(v[0]+1); if (signum < 0 || signum > NSIG) bferr("Bad signal number"); } else { int signo; char sbuf[BUFSIZ]; name = &v[0][1]; tstostr(sbuf, name); if (str2sig(sbuf, &signo) == 0) { signum = signo; goto gotsig; } if (eq(name, S_IOT /* "IOT" */)) { signum = SIGABRT; goto gotsig; } setname(name); bferr("Unknown signal; kill -l lists signals"); } gotsig: v++; } else signum = SIGTERM; pkill(v, signum); } void pkill(tchar **v, int signum) { struct process *pp, *np; int jobflags = 0; int omask, pid, err = 0; tchar *cp; #ifdef TRACE tprintf("TRACE- pkill()\n"); #endif omask = sigmask(SIGCHLD); if (setintr) omask |= sigmask(SIGINT); omask = sigblock(omask) & ~omask; while (*v) { cp = globone(*v); if (*cp == '%') { np = pp = pfind(cp); do jobflags |= np->p_flags; while ((np = np->p_friends) != pp); switch (signum) { case SIGSTOP: case SIGTSTP: case SIGTTIN: case SIGTTOU: if ((jobflags & PRUNNING) == 0) { /* %s -> %t */ printf("%t: Already stopped\n", cp); err++; goto cont; } } if (killpg(pp->p_jobid, signum) < 0) { /* %s -> %t */ printf("%t: ", cp); printf("%s\n", strerror(errno)); err++; } if (signum == SIGTERM || signum == SIGHUP) (void) killpg(pp->p_jobid, SIGCONT); } else if (!(digit(*cp) || *cp == '-')) bferr("Arguments should be jobs or process id's"); else { pid = atoi_(cp); if (kill(pid, signum) < 0) { printf("%d: ", pid); printf("%s\n", strerror(errno)); err++; goto cont; } if (signum == SIGTERM || signum == SIGHUP) (void) kill(pid, SIGCONT); } cont: xfree(cp); v++; } (void) sigsetmask(omask); if (err) error(NULL); } /* * pstart - start the job in foreground/background */ void pstart(struct process *pp, int foregnd) { struct process *np; int omask, jobflags = 0; #ifdef TRACE tprintf("TRACE- pstart()\n"); #endif omask = sigblock(sigmask(SIGCHLD)); np = pp; do { jobflags |= np->p_flags; if (np->p_flags&(PRUNNING|PSTOPPED)) { np->p_flags |= PRUNNING; np->p_flags &= ~PSTOPPED; if (foregnd) np->p_flags |= PFOREGND; else np->p_flags &= ~PFOREGND; } } while ((np = np->p_friends) != pp); if (foregnd) pclrcurr(pp); else { if (pprevious && (pprevious->p_flags & PSTOPPED)) { pcurrent = pprevious; pprevious = pgetcurr(PNULL); } else { pcurrent = pgetcurr(pp); if (!pcurrent || (pcurrent->p_flags & PRUNNING)) pcurrent = pp; else pprevious = pp; } } (void) pprint(pp, foregnd ? NAME|JOBDIR : NUMBER|NAME|AMPERSAND); if (foregnd) (void) ioctl(FSHTTY, TIOCSPGRP, (char *)&pp->p_jobid); if (jobflags&PSTOPPED) (void) killpg(pp->p_jobid, SIGCONT); (void) sigsetmask(omask); } void panystop(int neednl) { struct process *pp; #ifdef TRACE tprintf("TRACE- panystop()\n"); #endif chkstop = 2; for (pp = proclist.p_next; pp; pp = pp->p_next) if (pp->p_flags & PSTOPPED) error("\nThere are stopped jobs" + 1 - neednl); } struct process * pfind(tchar *cp) { struct process *pp, *np; #ifdef TRACE tprintf("TRACE- pfind()\n"); #endif if (cp == 0 || cp[1] == 0 || eq(cp, S_PARCENTPARCENT /* "%%" */) || eq(cp, S_PARCENTPLUS /* "%+" */)) { if (pcurrent == PNULL) if ((pcurrent = pgetcurr(PNULL)) == PNULL) bferr("No current job"); return (pcurrent); } if (eq(cp, S_PARCENTMINUS /* "%-" */) || eq(cp, S_PARCENTSHARP /* "%#" */)) { if (pprevious == PNULL) bferr("No previous job"); return (pprevious); } if (digit(cp[1])) { int index = atoi_(cp+1); for (pp = proclist.p_next; pp; pp = pp->p_next) if (pp->p_index == index && pp->p_pid == pp->p_jobid) return (pp); bferr("No such job"); } np = PNULL; for (pp = proclist.p_next; pp; pp = pp->p_next) if (pp->p_pid == pp->p_jobid) { if (cp[1] == '?') { tchar *dp; for (dp = pp->p_command; *dp; dp++) { if (*dp != cp[2]) continue; if (prefix(cp+2, dp)) goto match; } } else if (prefix(cp+1, pp->p_command)) { match: if (np) bferr("Ambiguous"); np = pp; } } if (np) return (np); if (cp[1] == '?') bferr("No job matches pattern"); else bferr("No such job"); /*NOTREACHED*/ } /* * pgetcurr - find most recent job that is not pp, preferably stopped */ struct process * pgetcurr(struct process *pp) { struct process *np; struct process *xp = PNULL; #ifdef TRACE tprintf("TRACE- pgetcurr()\n"); #endif for (np = proclist.p_next; np; np = np->p_next) if (np != pcurrent && np != pp && np->p_pid && np->p_pid == np->p_jobid) { if (np->p_flags & PSTOPPED) return (np); if (xp == PNULL) xp = np; } return (xp); } /* * donotify - flag the job so as to report termination asynchronously */ void donotify(tchar **v) { struct process *pp; #ifdef TRACE tprintf("TRACE- donotify()\n"); #endif pp = pfind(*++v); pp->p_flags |= PNOTIFY; } /* * Do the fork and whatever should be done in the child side that * should not be done if we are not forking at all (like for simple builtin's) * Also do everything that needs any signals fiddled with in the parent side * * Wanttty tells whether process and/or tty pgrps are to be manipulated: * -1: leave tty alone; inherit pgrp from parent * 0: already have tty; manipulate process pgrps only * 1: want to claim tty; manipulate process and tty pgrps * It is usually just the value of tpgrp. * * argument: * t: command we are forking for */ int pfork(struct command *t, int wanttty) { int pid; bool ignint = 0; int pgrp, omask; int child_pid; #ifdef TRACE tprintf("TRACE- pfork()\n"); #endif /* * A child will be uninterruptible only under very special * conditions. Remember that the semantics of '&' is * implemented by disconnecting the process from the tty so * signals do not need to ignored just for '&'. * Thus signals are set to default action for children unless: * we have had an "onintr -" (then specifically ignored) * we are not playing with signals (inherit action) */ if (setintr) ignint = (tpgrp == -1 && (t->t_dflg&FINT)) || (gointr && eq(gointr, S_MINUS /* "-" */)); /* * Hold SIGCHLD until we have the process installed in our table. */ omask = sigblock(sigmask(SIGCHLD)); while ((pid = fork()) < 0) if (setintr == 0) sleep(FORKSLEEP); else { (void) sigsetmask(omask); error("Fork failed"); } /* * setup the process group */ if (pid == 0) child_pid = getpid(); else child_pid = pid; pgrp = pcurrjob ? pcurrjob->p_jobid : child_pid; if (pid == 0) { int sigttou; settimes(); pflushall(); pcurrjob = PNULL; child++; if (setintr) { setintr = 0; /* until I think otherwise */ /* * Children just get blown away on SIGINT, SIGQUIT * unless "onintr -" seen. */ (void) signal(SIGINT, ignint ? SIG_IGN : SIG_DFL); (void) signal(SIGQUIT, ignint ? SIG_IGN : SIG_DFL); if (wanttty >= 0) { /* make stoppable */ (void) signal(SIGTSTP, SIG_DFL); (void) signal(SIGTTIN, SIG_DFL); (void) signal(SIGTTOU, SIG_DFL); } (void) signal(SIGTERM, parterm); } else if (tpgrp == -1 && (t->t_dflg&FINT)) { (void) signal(SIGINT, SIG_IGN); (void) signal(SIGQUIT, SIG_IGN); } if (wanttty >= 0 && tpgrp >= 0) (void) setpgid(0, pgrp); if (wanttty > 0) { sigttou = sigblock(sigmask(SIGTTOU) | sigmask(SIGTTIN) | sigmask(SIGTSTP)); (void) ioctl(FSHTTY, TIOCSPGRP, (char *)&pgrp); sigsetmask(sigttou); } if (tpgrp > 0) tpgrp = 0; /* gave tty away */ /* * Nohup and nice apply only to TCOM's but it would be * nice (?!?) if you could say "nohup (foo;bar)" * Then the parser would have to know about nice/nohup/time */ if (t->t_dflg & FNOHUP) (void) signal(SIGHUP, SIG_IGN); if (t->t_dflg & FNICE) (void) setpriority(PRIO_PROCESS, 0, t->t_nice); } else { if (wanttty >= 0 && tpgrp >= 0) setpgid(pid, pgrp); palloc(pid, t); (void) sigsetmask(omask); } return (pid); } void okpcntl(void) { #ifdef TRACE tprintf("TRACE- okpcntl()\n"); #endif if (tpgrp == -1) error("No job control in this shell"); if (tpgrp == 0) error("No job control in subshells"); } void hupforegnd(void) { struct process *pp; int omask; omask = sigblock(sigmask(SIGCHLD)); for (pp = (&proclist)->p_next; pp != PNULL; pp = pp->p_next) if (pp->p_pid > 0) { if (pp->p_flags & PFOREGND) (void) kill(pp->p_pid, SIGHUP); } (void) sigsetmask(omask); }